Optical nonlinearities of metal-dielectric composites

Nonlinear optical properties of metal-dielectric composites, such as fracta l colloid aggregates and clusters created by ion implantation, are studied. Strong fluctuations of local fields result in huge enhancements of optical nonlinearities in fractal colloid aggregates. The real and imaginary parts of the cubic susceptibility of silver colloid aggregates are measured. It is found that the coefficient of nonlinear absorption strongly depends on t he laser wavelength and intensity. Optical limiting effect in fractal silve r colloids is observed. Nondegenerate forward four-wave mixing technique is used to investigate the third-order nonlinear susceptibility for nanocompo site material with Au nanocrystals formed inside a SiO2 glass matrix. The A u nanocrystals are formed by the ion implantation and annealing method that produces very high volume fraction of nanoparticles. The large value \chi( (3))\ = 1 3 x 10(-7) esu is measured. Two characteristic relaxation times, 5.3 ps and 0.66 ps, are estimated from the detuning curve of \chi((3))\, as the probe beam wavelength changes. A novel class of optical materials, mic rocavities doped with nanostructured fractal aggregates, is also studied. I n our experiments, lasing at extremely low pump intensities, below 1 mW, an d dramatically enhanced Raman scattering was observed in microcavity/fracta l composites.